Film rewind device for compact cinecameras

ABSTRACT

A film rewind device for compact cinecameras of the type using a film cartridge having no supply spool shaft operable from the exterior thereof but provided with detent means attached to a take-up core, and in which the length of film to be loosely supplied to the take-up chamber of the cartridge can be varied in proportion to the film roll diameter in the supply chamber of the cartridge by the utmost utilization of the fact that the space in each of the supply and take-up chambers varies in proportion to the length of film photographed, and the length of film to be loosely supplied into the take-up chamber can be selected as desired within a predetermined range and that length of film can be rewound exactly.

United States Patent [191 Iida FILM REWIND DEVICE FOR COMPACT CINECAMERAS 9/1972 lida July 24, 1973'.

Primary Examiner-Samuel S. Matthews AssistantExaminer-Russell E. Adams, Jr.

57 ABSTRACT A film rewind device for compact cinecameras of the type using a film cartridge having no supply spool shaft operablefrom the exterior thereof but provided with detent means attached to a take-up core, and in which the length of film to be loosely supplied to the take-up chamber of the cartridge can be varied in proportion to the film roll diameter in the supply chamber of the cartridge by the utmost utilization of the fact that the space in each of the supply and take-up chambers varies in proportion to the length of film photographed, and the length of film to be loosely supplied into the take-up chamber can be selected as desired within a wound exactly.

3 Claims, 13 Drawing Figures Patented July 24, 1973 3,748,028

5 Sheets-Sheet 1 Pa lt ented Jul 24, 1973 v 3,748,028

5 Sheets-Sheet 2 FIG. 4

' P tented July2 1973 5 Sheets-Sheet :5

Patented Jul 24, 1973 3,748,028

5 Sheets-Sheet 4 Patented July 24, 1973 5 Sheets-Sheet 5 FIG. ll

FIG. l2

FIG. I73

FILM REWIND DEVICE FOR COMPACT CINECAMERAS BACKGROUND orrna INVENTION FIELD OF THE INVENTION This invention relates to compact cinecameras, and more particularly to a film rewind device for such cameras.

DESCRIPTION OF THE PRIOR ART Some of the film cartridges used with cinecameras are provided with detent means disposed in the take-up chamber thereof for preventing slackening of the fed film in the cartridge. In a cinecamera using a film cartridge of such type, the double-exposure technique is adapted and in thisconnection the film rewind operation is effected'by temporarily stopping the take-up of the film so as to store a predetermined length of the fed film in the space within the cartridge and thereafter rewinding that length of film. Such a system can not always ensure an available or sufficient space within the cartridge for that purpose. More specifically, during the initial stage of photographing, space is abundant in the take-up chamber into which the film is supplied loosely with the take-up core being temporarily stopped, whereas space is approximately null in the supply chamber into which theloosely supplied film is to be rewound. During the intermediate stage of photographing, the spaces in the supply and take-up chambers become substantially equal to each other and the length of film to be supplied or the length of film to be rewound becomes greatest at this stage. At the final stage of photographing, the take-up chamber is full of film and no space is available therein.

Attempts have heretofore been made to solve this problem by presetting an unrewindable range for sev-,

eral feet of the film in each of the leading and trailing end portions thereof andarewindable range for the intermediate position of the film. As a result, the length of film to be rewound has been limited to a predetermined value. An attempt to increase such limited length of film to be rewound has entailed a decrease in the rewindable range, and an attempt to increase the rewindable range has entailed a decrease in the length of film to be rewound.

SUMMARY or THE INVENTION bers varies in proportion tol the length of film photographed. Moreover, in the film rewind device of the present invention, the -length'of film to-be loosely supplied into the take-up chamber can be selected as desired within thepossible.rangedetennined'accordingto the exposed film as m-entioned,and theexact length of film 'thus loosely supplied can be rewound from the take-up chamber'to the supply chamber of the film cartridge.

According to the present invention, in a compact cinecamera usinga film cartridge, ona take-up core which is provided with detent means, while there is .provided no shaft for afilm supply spool, the cinecamera includes a shutter shaft associated at least with drive means for driving shutter means, film supply means and film measuring means, an automatic stop means for automatically stopping normal and reverse rotations 'of the shutter shaft and provided on the shutter shaft or on an intermediate shaft associated therewith. The improvement comprises: displacing means associated withthe film measuring means to be displaced in such a manner that the amount of displacement is zero at the extremities of an indicator scale on the measuring means and-that the amount of displacement is greatest in the middle of th indicator scale; first control means associated with the displacing means and displaceable in response to the displacement of the displacing means during normal photographing operation for determining the time for the automatic stop means to automatically stop the normal rotationof the shutter shaft to thereby control the amount of film to be photographed with the film being loosely fed; and second control means displaceable within the amount of displacement of the first control means when the device has been changed over fromthe normal photographing position toanother photographing position for taking continuous shot with the film being loosely fed, the displace.- ment of the second control means determining the time for the automatic stop 'means to stop the reverse rotation of the shutter shaft to thereby control the amount of film to be rewound.

The above and other featuresof the present invention will become fully apparent from the following de-. tailed description "takenin conjunction withthe accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view schematically showing the essential parts of the film rewind device embodyingthe present invention as'the device has been set'in a position for starting normal photographing.

FIG. 2 isaplan view similar'to FIG. 1 but showing the device as. it is in a position where photographing is progressed to a certain degree.

FIG. 3 is a plan view again similar to FIG. 1 but show.- ing the device ask is changed over fromlthe position of FlGnz'to a position for effecting continuous shot while loosely supplyingafilmlinto'the take-up chamber by temporally stopping the film take-up operation.

FIG. 4 isaplan view also similar to FIG. 1 but showing thedeviceas itisrewoundfrom theposition of FIG. 3.

FIG. :5 is a cross-sectional view taken along lines V-V of FIG. 1.

FIG. 6 isapartly sectional-view taken alongline VI of FIG. 5.

FIG. 7 isapartlysectional view taken along line VII of FIG. 1.

BIG. 8 is a graphical representation for illustrating the relationship between the "film roll: diameter and the space imeacha of supplymnd .take-up-chambers in a film cartridge used' with the present invention.

FIG. 9 is a perspective view for illustrating the relationship between the film cartridge and the film feeding means.

FIG. 10 is a plan view substantially showing the essential parts of the film rewind device embodying the invention and including modifications over the device of FIG. 1.

FIG. 11 is a plan view illustrating a different opera tional state of the device of FIG. 10.

FIGS. 12 and 13 illustrate details of the device shown in FIG. 10.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIG. 1, a shutter shaft 1 operatively associated with a conventional shutter means (not shown) and with a film feeding pawl 53 (FIG. 9) movable in opposite directions is securely provided with a pin 1', a worm 2, a pair of pawled stop discs 3 and 4, a shutter gear 5 and a sector 6, these being positioned at suitable distances as hereinafter explained. A micromotor 7 has an output shaft connected to the shutter shaft 1 at one end thereof via pinion 8 and shutter gear 5. The micromotor 7 is a reversible motor energized through a change-over switch 50 for changing the rotational direction of the motor to be described and thereby the shutter shaft 1 is driven to rotate in normal or reverse directions. A film take-up gear 9 is engaged with a take-up shaft 56 (FIG. 9, the manner of this engagement is not shown) which is enclosed in a conventional film cartridge having no rewind spool shaft but provided with detent means for preventing the film slack. The film take-up gear 9 is mounted on a shaft 10 journalled to the body of a camera and is engageable with a clutch gear 11 formed of a thin spur gear and serving also as a worm wheel, so that the gear 9 is driven to rotate by the clutch gear 11. As shown in FIG. 5, the clutch gear 11 is rotatably mounted on a shaft 12 together with an integral gear 13 in such a manner that an inverted L-shaped clutch lever 14 is sandwiched at the upper end thereof between the clutch gear "and clutch cam 18. The clutch cam 18 is mounted rotatably on a shaft 20 which is manually operated by a knob 17 formed integrally therewith. The operating knob, 17 has a switch cam 19 integral therewith which will be described later in detail. The operating knob 17 is provided with markings 21 including letters B, F and N formed at predetermined positions therein, which markings cooperate with an index 22 formed in the camera body. The clutch cam 18 is designed to selectively displace the clutch lever 14 so that the take-up gear 9 is engaged with the clutch gear 11 when the letter N of the marking 21 is registered with the index 22 and that the gear 13 (FIG. 5) is engaged with counter gears 23 and 25 to be described when the letter F or B of the marking 21 is registered with the index 22.

In FIG. 5, the counter gears 23 and 25 are rotatably mounted on a common shaft 27 which is rotatably journalled to the camera body and integral with a detector gear 28 having a projection 29 for engaging a rack 31 to vary the amount of film to be rewound. The counter scribed later, wh en the knob 17 is rotated until the mark B thereon is registered with the index 22 as shown in FIG. 4. The counter gear 25 is further formed with a pin 26 radially opposite to the slot 250. The pin 26 is urged into contact wth the projection 29 formed axially on a detector gear 28, to be described below, when the counter gear 25 is disengaged from the gear 13 integral with the clutch gear 11.

The counter gear 25 and its pin 26 together constitute first control means, and the counter gear 23 and its pin 24 together-constitute second control means.

The rack 31 always engages with the detector gear 28 receives guide pins 32 in the guide slots formed therein and is biased by a tension spring 33 into engagement with a cam 35 which is rotated by the shutter shaft 1 through an unshown interlocking member connected opratively to a shaft 36 of a film measuring disc 34. The cam 35 is so arranged that the cam movement caused thereby may be transmitted to the projection 29 of the detector 28 via the rack 31 so as to enable the film to be taken-up or rewound in accordance with the length thereof to be photographed, and that the amount of displacement of the cam 35 may be zero at the extremities of the scale graduated on the film measuring disc 34, but maximum in the middle of the scale.

The detector gear 28, projection 29, shaft 27, rack 31, guide pins 32, spring 33 and cam 35 together constitute displacing means.

A stop member 37 having a projection 37a vertically formed thereon and a longitudinally projected top end 37b is pivotally mounted on the camera body by means of a pin 39. A U-shaped spring 38 is secured to the shaft 39 and a pin 40 studded in the camera body in such a manner that theupper ends of the U-shaped spring 38 resiliently holds therebetween the projection 37a of the stop member 37. Thus, the stop member 37 is resiliently held by the U-shaped spring 38 so that the projected top end 37b is disposed between the pawl stops of the discs 3 and 4. The stop member 37 further includes a lower lateral projection 370 corresponding to the pins 24 and 26 studded in the counter gears 23 and 25.

Referring now to FIG. 7, the pawled stop discs 3 and 4 are shown in detail. These stop discs 3 and 4 are formed with shoulders 41 and 42 and slant cam 'surfaces 43 and 44, respectively'The shoulder 41 and cam surface 43 of the stop disc 3 together form an axial pawl member 45, and the shoulder 42 and cam surface 44 of the other disc 4 together form an axial pawl member 46. The shoulders 41 and 42 are slightly spaced with respect to the projected top end 37b of the stop member 37 so as not to interfere therewith. The shoulders 41 and 42 are set in such an angular relation that the position in which they are brought into abutment with the projected top end 37b of the stop member 37 when they are stopped out of a possible take-up or rewind range or automatically stopped in accordance with a length of film photographed during a first shot, as described later, is the same as the position in which they are stopped by an unshown pawl for stopping the shutter shaft.

The switch cam 19 integral with the operating knob 17 has a recess 19a for receiving the left end projection 47a of a switch lever 47 when the mark B of the knob 17 is registered with the index 22. The switch lever 47 is pivotally mounted on a shaft 48 secured to the camera body and is'biased by a tension spring 49 so that the projection 47a thereof is normally urged into contact with the switch cam 19, and that when the left end 47a a reverse ,drive circuit.

A power supply battery 51 and a switch 52 associated with the micror notor 7 and un'shown shutter button constitute a change-over circuit for driving the shutter shaft 1 to rotate'in normal and reverse directions.

As shown in FIG. 9, film supply pawl means 53 is provided slidably on the shafts 54 and formed with a slot to receive the eccentric pin 1' integrally adapted to the disc 6 eccentrically with the center thereof, thus the film being moved in normal or reverse directions. Film cartridge 55 of the known type encloses therein a takeup core 56 provided with means for preventing the film slack.

In operation, the operating knob 17 is manually rotated until the mark N thereof is registered with the index 2,2.as shown in FIG. 1 or 2. The shutter button (not shown) is operated to close the switch 52, whereby a' normal drive circuit is established and the micromotor 7 is thereby rotated in normal direction. Thus, the shutter shaft 1 is also driven to rotate in normal direction by the micromotor 7 via pinion 8 and shutter gear 5, so that the feeding pawl 53 associated with the shutter shaft 1 feeds the film in normal direction At the same time, thetake-up gear 9 is driven through worm 2 and clutch gear 11 so that the film is taken up by thetake-up shaft 56 adapted within the film cartridge. Thus, normal shot may be effected. Concurrently therewith, the film measuring disc 34 is driven to rotate bythe shutter shaft 1 via an interlock- .ing member (not shown) to thereby indicate the length of film photographed, and the cam 35 .integral with the film measuring disc 34 is also rotated to displace the rack 31, ,whose displacement is converted through the projection 29 of the detector gear '28 into a possible take-upor rewind range as indicated by ,0 (FIG. 6) corresponding to the length of film photographed (FIG. 2). Subsequently, the operating knob 17 is further rotated without interrupting the described shutter operation until the mark F of the knob 17 is registered with the index 22, whereby the clutch lever' 14 is rotated counter-clockwise by the clutch cam 18 to disengage the clutch gear llfrorh the take-up gear9 and the gear 13 integral with the clutch gear 11 is engaged with the counter gears 23 and25'.( FIG. 3). In this position, the change-over'switch 50 remains closed'to maintain the normal drive. circuit so as to allow the photographing operation to continue, and the rotation of the shutter shaft 1 causes the rotation of the counter gears 23 and 25 instead of the take-up gear9, so that the pins 24 and 26 of the respective counter gears 23 and 25 move away from their respective associated projections 37c and 29, i.e., in the direction for increasing the values a, and a, in FIG. 3. Thus, the rotation of the take-up gear 9 is stopped and hence the film transported in normal direction by the film feeding pawl (FIG. 9) is loosely stored in the film cartridge without being taken up by the take-up shaft 56 therein. The length of film thus stored in the film cartridge corresponds to an angle which is within the possible take-up or rewind range 0 shown ,in FIG. 6. When the shutter is released at a desired angular point or, within the possible range 0, the shutter shaft 1 and therefore the pawled stop discs 3, 4 are stopped at apredetermined position by unshown shutter stop member while leaving an availablerange B, and thus the film transportation is also stopped. On the other hand, the pin24 is spaced apart from the projection 370 by an angulardistance corresponding to 61,,

Le, a

When it is desired to release the shutter at the maximum possible take-up or rewind range, that is to say, when it is desired to take the angle a, as large as possible within the possible range 0, the shutter release operation may be continued until the studded pin 26 of the counter tear 25 strikes the projections 370 of the stop member 37 as to displace the projected top end 37b of the stop member 37 toward the pawled stop disc 3 against the action of the U-shaped spring 38. Thus, the shoulder 41 of the pawled stop disc 3 (FIG. 7) interferes with the top end 37b of the stop member 37, whereby the rotation of the shuttershaft l is automatically stopped and the film transportation is also stopped. At thesame time, the pin 24 studded in the counter gear 23 is displaced by thesame amount.

Subsequently, light entering through aphotographing lens (not shown) is interrupted-in the known. manner, whereafter the operating knob 17 is rotated until mark B thereonis registered with the index 22 as shown in FIG. 4. Thus, the clutch lever 14 is stopped at its counter-clockwise rotated position by the clutch cam 18, and the gear 13 integral with the clutch gear 11 maintains its engagement withthe counter gears 23 and 25, whereby the changeover switch 50 is changed over to establish a reverse drive circuit by the switch cam "19 via switch lever 47, In this position, if the shutter button is released, the micromotor 7 will be revolved in reverse direction andaccordingly all the parts associated therewith will also 'be driven in reverse direction,'

whereby the amount of film loosely stored in the takeup chamber in the film cartridge maybe reversely transported to return to the supply chambeLSimultaneously therewith, the counter gears 23 and 25 arealso rotated in reverse direction so that the pin 24. of the counter gear 23 urges the projection 37:; of the stop member 37 downwardlyto thereby displace the top end 371 ofthe stop member 37 toward the pawled stop disc 4 against the actionof. the U-shaped spring38. Thus, the shoulder 42 of the pawl member 46 in the stop disc 4 interferes with ,thejtop top end 37b of the stop member 37, whereby'the reverse rotation of the shutter shaft 1 and accordingly the reverse movement of the film are stopped automatically. 1

. InFIG. 4, a, represents theangle'over which the pin 24 of the counter gear 23 is rotated from the time when the top end 37b of the stop member 37 is interfered with the should 42 of thestop disc 4 till the reverse rotation is automatically stopped. Such angle of rotation a, can be approximate to zero by suitably increasing the dimensional ratioof the top end 37b to the lower lateral projection 37c of the stop member 37.

Subsequently, when the operating knob 17 is again rotated until the mark N is registered with the index 22,

- the switch lever 47 is rotated counter-clockwise by the switch cam 19 againstthe actionof the spring 49 while i the clutch lever 14 is rotated clockwise by the clutch cam l8 against the action of the spring 16, to thereby bring the device intothe position ready for effecting normal shot. Thus, the change-over switch 50 is returned to the normal drive position and the gear 13 is disengaged from the counter gears 23 and 25, while the clutch gear 1 1 is engaged with the take-up gear 9. Thus, the counter gears 23 and 25 are returned to their predetermined positions with the aid of pins 24 and 26, U- shaped spring 38, spiral spring 30, and pawls 45 and 46. At the same time, the stop member 37 is returned by the urge of the U-shaped spring 38 to its normal position where the stop member 37 is not interfered with by any of the pawls 45 and 46 of the stop discs 3 and 4. if the shutter button is actuated in this state, there will be acccomplished a double shot.

Referring to FIG. 8, relations between the dimensions of the film chambers and the length of the film therein are graphically shown with the film roll diameters and the spaces in the supply and take-up chambers in the film magazine overlapping each other. The upper triangle defined by the leftwardly downward diagonal represents the space in the take-up chamber, and the upper triangle defined by the rightwardly downward diagonal represents the space in the supply chamber. The triangle A shown with hatching designates the film roll diameter in the supply chamber, and the other triangle B shown with hatching represents the film roll diameter in the supply chamber.

C-C' represents the range over which the film can be loosely fed and rewound. As seen, such range is gradually increased from the initial stage of photographing and reaches a peak in the middle stage, whereafter it is gradually decreased toward the termination of photographing. Letter D represents the possible film take-up or rewind range according to the prior art.

It will thus be noted that according to the present invention, the fact that the space in each of the supply and take-up chambers of the film cartridge varies in proportion to the length of film photographed is utilized to the utmost so that the length of film to be loosely fed into the take-up chamber of the film cartridge can be varied in proportion to the length of film photographed. Moreover, the length of film to be loosely fed can be selected as desired within a predetermined range, and the exact length of film thus loosely fed into the take-up chamber can be rewound into the supply chamber.

FIGS. to 13 show another embodiment of the present invention in which a shutter shaft 1, operatively associated with a conventional shutter means and with a film feeding pawl 53 (FIG. 9) movable in opposite directions, is securely provided with a worm 2, a shutter gear 5 and a sector 6. A micromotor 7 has its output shaft connected to the shutter shaft 1 via a pinion 8 mounted thereon and said shutter gear 5. The micromotor 7 is a reversible motor energized through a chang-over switch 114b for changing the rotational direction of the motor, as will be described, to thereby drive the shutter shaft 1 in normal or reverse directions. A film take-up gear 9 is engaged with a take-up shaft 56 which is enclosed in a conventional film cartridge having no rewind spool shaft but having a take-up core provided with detent means for preventing the slackening in the film. The film take-up gear 9 is mounted on a shaft l0joumalled to the camera body and is engageable with a clutch gear 11 formed of a thin spur gear and also serving as a worm wheel, so that the gear 9 is driven to rotate by the clutch gear 11. As shown in FIG. 12, the clutch gear 11 is rotatably mounted on a shaft 12 carried by an inverted L-shaped clutch lever 14 and is in engagement with the worm 2. The clutch lever 14 is pivotally mounted on a pin 15 secured to the camera body and is biased by a compression spring 16 so that a projection 14a formed in one arm of the clutch lever 14 is urged into contact with a clutch cam 18. The clutch cam 18 is rotatably mounted on a shaft 20 which is manually operated by a knob 17 formed integrally therewith. The operating knob 17 is provided with markings 21 including letters B, F and N formed at predetermined positions therein. The markings cooperate with an index 22 formed in the camera body. The clutch cam 18 is designed to selectively displace the clutch lever 14 so that the take-up gear 9 is engaged with the clutch gear 11 when the letter N of the markings 21 is registered with the index 22 and that the gear 11 is engaged with a counter gear 101 to be described when the letter F or B of the markings 21 is registered with the index 22.

The counter gear 101 is rotatably mounted on a shaft 103 which is rotatably journalled to the camera body and is integral with a detection lever 104 having a contact 106 for engaging a cam 35 to vary the amount of film to be rewound. The counter gear 101 has a pin 102 studded therein and adapted to actuate a normal rotation stop switch 106 so that film is advanced by an amount necessary to effect a first exposure when the letter F of the markings 21 is registered with the index 22, i.e., when the clutch gear 11 is disengaged from the take-up gear 9 to stop the gear 9 from rotating, and also adapted to actuate a' reverse rotation stop switch 107 so that film is rewound by the same amount when the letter B of the markings 21 is registered with the index 22. When a position is reached other than the position inv which film take-up and rewind can smoothly take place, the pin 102 actuates the stop switches 106 and 107 to stop the rotation of the shutter shaft 1.

The normal rotation stop switch 106 and the pin 102 together constitute first control means, and the reverse rotation stop switch 107 and the pin 102 together constitute second control means.

The detection lever 104 is always biased by a tension spring 105 into engagement with a cam 35 which is rotated by the shaft 1 through an interlocking member (not shown) connected operatively to a shaft 36 of a film measuring disc 34. The cam 35 is so arranged that the cam movement caused thereby may be transmitted to the normal rotation stop switch 106 of the detection lever 104 so as to enable the film to be taken up or rewound in accordance with the length thereof to be photographed, and that the amount of displacement of the cam 35 may be zero at the extremities of the scale graduated on the film measuring disc 34, but maximum in the middle of the scale.

The detection lever 104, normal rotation stop switch 106, shaft 103, tension spring 105 and cam 35 together constitute displacing means.

The reverse rotation stop switch 107 is securely mounted on the camera body and has one contact 107' thereof disposed in the circular path of the studded pin 102 on the counter gear 101 so that the switch 107 is I opened and closed by the pin 102. The reverse rotation mounted on the camera body and has one contact 106' thereof disposed in the circular path of the studded pin 102 on the counter gear 101. The normal rotation stop switch 106 is so'designed that its amount of displacement, i.e., the maximum amount of film which can be loosely stored in a film cartridge, may be determined by the pin 102 and the contact 106' of the switch 106. Projection 108 is formed to stop the shutter integral with the shutter gear 5. As shown in FIG. 13, the pro jection 108 includes a portion 108a for stopping the reverse rotation of the shutter. A shutter shaft stop member 109 is pivotally mounted on a shaft 110 secured to the camera body, and it is biased by a spring 111 so that one end thereof is engaged with the projection 108. A motor switch 113 is provided and designed to close a motor circuit when the shutter stop member 109 is disengaged from the projection 108. A changeover switch, generally designated by 114, may be changed over between a normal drive position and a reverse drive position by a switch lever 47, and it in line position of FIG. 10 it operates only the normal rotation stop switch 106 and in its broken-line position it operatesonly the reverse rotation stop switch 107.

The switch cam 19 integral with the operating knob 17 has a recess 19a for receiving the left end projection 47a of a-switch lever .47 when the mark B of the knob 17 is registered with the index 22. The switch lever 47 is pivotally mounted on a shaft 48 secured to the camera body and is biased by a tension spring 49 so that the projection 47a thereof is normally urged into contact with the switch cam 19,.and that when the left end 470 is received in the recess 19a, the right end 47b actuates the change-over switch 114 into a position for establi shing a reverse drive circuit. A power supply battery 51, change over switch 114, and a switch .52 associated with the micromotor 7 and a shutter button (not shown) constitute a series of circuits.

Operation of the present embodiment will nowbe described. As shown in FIGS. 10 and 11, the operating knob 17 is manually rotated until the mark N' thereof is registered with theindex 22. The shutter button (not shown) is operated-to'close the switch 52, whereby a normal drive circuit is established and the micromotor 7 is thereby rotated in the normal direction. Thus, the shutter shaft 1 is also driven to rotatein the normal direction. by the micromotor 7 via pinion 8-and shutter gear 5, so that the feeding pawl 53, associatedwith the shutter shaftl feedsthe film in the normal direction.

' by the take-up shaft 56 adapted within the film cartridge. Concurrently'therewith, the film measuring disc 34 is driven to rotate by the shutter shaft 1 via the interlocking member to thereby indicate the length of film photographed, and thecam 35 integral with the film measuring disc 34 is also rotated to displace the detection lever 104, whose displacement is converted through the contact 106' of the normal rotation stop switch 106 into a possible take-up or rewind range as indicated by O-(FIG. l 1) corresponding to the length of film photographed. Subsequently, the-operating knob 17' is further rotated without interrupting the described shutter release operation until the mark F of the knob 17 is registered with the index 22, whereby the clutch lever 14 is rotated counter-clockwise by the clutch cam 18'to disengage the clutch gear 11 from the take-up gear 9 and the clutch gear 11 is engaged with the counter gear 101. In this position, the change-over switch 114b remains closed tornaintain the normal drive circuit (full-line; position in FIG. 10) so as to allow the photocopying operation to continue, and the rotation of the shutter'shaft 1 causes the rotation of the counter gear 10linstead of the film take-up gear 9, so

that the studded pin 102 is rotated away from the contact 107 of the reverse rotation stop switch 107. Hence, the film transported in normal direction by the film feeding pawl 53 is loosely stored in the film cartridge without being taken up by the take-up shaft 56 therein. The length of film thus stored in the film cartridge corresponds to an angle which is within the possible take up or rewind range 0, the shutter shaft is stopped at a predetermined position by the shutter stop member 109 while leaving an available range, and thus the film transportation is also stopped.

When it is desired to release the shutter at the maximum possible take-up or rewind range, the shutter release operation may be continued until thestudded pin 102 on the counter gear 101 strikes the contact 106 of the normal rotation; stop switch 106 so as to open the magnet circuit, whereupon the magnet 112 is deenergized to allow the shutter stop member 109 to be pulled a by the spring 111 ,sothat the upper end of the stop member 109 is engaged with the projection. 108a of the shutter shaft. Thus, the rotation of the. shutter shaft 1 is automatically stopped and accordingly the transportation of the film is also stopped; When the operating knob 17 is rotated until mark B thereon'is registered with the index 22, the clutch lever 14 is stopped at its aforesaid position by the clutch cam' 18', and the clutch gear 11 maintainsits engagement with the counter gear 101, whereby the change-over switch 114i; is changed over to establish-a reverse drive circuit by theswitch cam l9'via switch lever 47'. In this position, if the shutter button is released, the micromotor 7 will be revolved in the reverse direction by the action of the magnet 112 and accordingly all the parts associated therewith will also'b'e driven in the reversedirection, whereby the amount of film loosely stored in thetakeup chamber in v the film cartridge may be reversely neously therewith, the counter gear 101 is also rotated in reverse direction sothat the studded pin 102 actuates the contact 107' of the reverse rotation stop switch l07'to open themagnet' circuitso as to allow the shutter stop member 10910 be biased by the spring 11.

Thus, the stop memberl09 interferes with the portion 108k of the projection 1 08 of the shutter shaft, wherebythe reverse rotation oftlie shutter shaft 1 and accordingly the reverse movement of the film is stopped automatically.

Subsequently, when the operating knob 17 is again rotated until the mark N is registered with the index 22, the switch lever 47 is rotated counter-clockwise by the switch cam l9'againstthe actionofthe spring 49 while the 'clut'chlever 14isrotated'clockwise by the clutch cam 18 againstfthe action of the spring 16*, to thereby bring the device into the position ready for effecting normal shot. Thus; the-change-over switch 1145 is returnedto'the normal"drive'position, the gear 13 is disengaged from the counter gear 101, while the clutch gear 11 is engaged with'the take up gear 9, and the counter gear 101 is restored to its original position. If the shutter button is actuated in this state, there will be accomplished a double exposure.

What is claimed is:

1. In a cinecamera of the type using a film cartridge equipped with anti-reversing means attached to a shaft for taking up the film, and including a driving shaft, shutter means operable by said driving shaft;

driving means for normally and reversely rotating the driving shaft;

means for transporting the film, associated with said driving shaft; and

means for preventing the rotation of the take-up shaft while said film transporting means is operated to loosely feed the film into a'take-up chamber in the film cartridge and loosely rewind theloosely fed film into a supply chamber in said cartridge; the improvement comprising means for automatically stopping the normal and the reverserotation of the driving shaft;

means for determining the maximum amount of the film which is loosely fed into the take-up chamber and then rewound into said supply chamber;

said determining means being associated with the driving shaft to vary said maximum amount in accordance with'the amount of film wound on the take-up shaft;

first means for operating the automatic stopping means to stop the normal rotation of the driving shaft when the film is loosely fed by the maximum amount into the take-up chamber; and

second means for operating said automatic stopping means to stop the reverse rotation of the driving shaft when the film is loosely rewound into the supply chamber by the same length as that of the film loosely fed into the take-up chamber;

said automatic stopping means including a disc securely mounted on said driving shaft, a stop member engageable with said disc and mounted for movement between a first position in which said disc is disengaged therefrom to permit the rotation of the driving shaft and a second position in which said disc is engaged therewith to stop the normal and reverse rotation of said driving shaft, and means for biasing said stop member into said first position thereof.

2. A cinecamera as defined in claim I, wherein said determining means comprises a cam member movable in association with the driving shaft, and a cam follower shaft from the first extremity to the middle thereof and from its said second position to its said first position while the film is wound from the middle to the last extremity thereof; and wherein said first operating means comprises an electrical magnet mounted to move said stop member; an electrical circuit for energizing said magnet to displace the stop member from its said first position to its said second position and for deenergizing said magnet to displace the stop member from its said second position to its said first position; a first switch connected in the circuit and fixedly secured on said cam follower, said first switch being closed when the driving shaft is normally rotated, and said magnet being energized when the first switch is closed and deenergized when the first switch is opened; a first counter member coupled with the driving shaft when said transporting means is operated to loosely feed the film into the take-up chamber and loosely rewind the loosely fed film into the supply chamber; and a pin provided on the first counter member, said first counter member being positioned for the pin thereon to close the first switch when the cam follower is in its said first position, and to open the first switch which is in the displaced position together with the cam follower to thereby stop the normal rotation of said driving shaft when said maximum amount of the film is loosely fed into the take-up chamber.

3. A cinecameraas defined in claim 2, wherein said second operating means comprises said first counter member, said pin provided on the first counter member, and a second switch connected in parallel with the first switch and fixedly mounted on the body of the cinecamera for engagement by said pin when both said first switch and cam follower are in their respective first positions, said second switch being closed when the driving shaft is reversely rotated and opened during the engagement of the pin therewith, whereby the pin opens the second switch to thereby stop the reverse rotation of said driving shaft when the film is loosely rewound'into the supply chamber by the same amount as that of the film loosely fed into the take-up chamber. i l 1 

1. In a cinecamera of the type using a film cartridge equipped with anti-reversing means attached to a shaft for taking up the film, and including a driving shaft, shutter means operable by said driving shaft; driving means for normally and reversely rotating the driving shaft; means for transporting the film, associated with said driving shaft; and means for preventing the rotation of the take-up shaft while said film transporting means is operated to loosely feed the film into a take-up chamber in the film cartridge and loosely rewind the loosely fed film into a supply chamber in said cartridge; the improvement comprising means for automatically stopping the normal and the reverse rotation of the driving shaft; means for determining the maximum amount of the film which is loosely fed into the take-up chamber and then rewound into said supply chamber; said determining means being associated with the driving shaft to vary said maximum amount in accordance with the amount of film wound on the take-up shaft; first means for operating the automatic stopping means to stop the normal rotation of the driving shaft when the film is loosely fed by the maximum amount into the take-up chamber; and second means for operating said automatic stopping means to stop the reverse rotation of the driving shaft when the film is loosely rewound into the supply chamber by the same length as that of the film loosely fed into the take-up chamber; said automatic stopping means including a disc securely mounted on said driving shaft, a stop member engageable with said disc and mounted for movement between a first position in which said disc is disengaged therefrom to permit the rotation of the driving shaft and a second position in which said disc is engaged therewith to stop the normal and reverse rotation of said driving shaft, and means for biasing said stop member into said first position thereof.
 2. A cinecamera as defined in claim 1, wherein said determining means comprises a cam member movable in association with the driving shaft, and a cam follower biased into contact with the cam member and movable between a first position and a second position, wherein said cam member is mounted for displacing the cam follower from its said first position to its said second position thereof while the film is wound on the take-up shaft from the first extremity to the middle thereof and from its said second position to its said first position while the film is wound from the middle to the last extremity thereof; and wherein said first operating means comprises an electrical magnet mounted to move said stop member; an electrical circuit for energizing said magnet to displace the stop member from its said first position to its said second position and for deenergizing said magnet to displace the stop member from its said second position to its said first position; a first switch connected in the circuit and fixedly secured on said cam follower, said first switch being closed when the driving shaft is normally rotated, and said magnet being energized when the first switch is closed and deenergized when the first switch is opened; a first counter member coupled with the driving shaft when said transporting means is operated to loosely feed the film into the take-up chamber and loosely rewind the loosely fed film into the supply chamber; and a pin provided on the first counter member, said first counter member being positioned for the pin thereon to close the first switch when the cam follower is in its said first position, and to open the first switch which is in the displaced position together with the cam follower to thereby stop the normal rotation of said driving shaft when said maximum amount of the film is loosely fed into the take-up chamber.
 3. A cinecamera as defined in claim 2, wherein said second operAting means comprises said first counter member, said pin provided on the first counter member, and a second switch connected in parallel with the first switch and fixedly mounted on the body of the cinecamera for engagement by said pin when both said first switch and cam follower are in their respective first positions, said second switch being closed when the driving shaft is reversely rotated and opened during the engagement of the pin therewith, whereby the pin opens the second switch to thereby stop the reverse rotation of said driving shaft when the film is loosely rewound into the supply chamber by the same amount as that of the film loosely fed into the take-up chamber. 